3 releases
0.1.2 | Jan 19, 2024 |
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0.1.1 | Jan 18, 2024 |
0.1.0 | Jan 17, 2024 |
#548 in Programming languages
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20KB
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Pattern Lexer
My personal implementation of a lexer.
Principle
This lexer is making use of the Pattern
trait to find tokens.
The idea is to create Tokens
, explain how to match them with a Pattern
and build them from the matched String
value.
Pattern
A string Pattern
trait.
The type implementing it can be used as a pattern for &str
,
by default it is implemented for the following types.
Pattern type | Match condition |
---|---|
char |
is contained in string |
&str |
is substring |
String |
is substring |
&[char] |
any char match |
&[&str] |
any &str match |
F: Fn(&str) -> bool |
F returns true for substring (slow) |
Regex |
Regex match substring |
Usage
The lexer!
macro match the following syntax.
lexer!(
// Ordered by priority
NAME(optional types, ...) {
impl Pattern => |value: String| -> Token,
...,
},
...,
);
It generates module gen
which contains Token
, LexerError
, LexerResult
and Lexer
.
You can now call Token::tokenize
to tokenize a &str
,
it should return a Lexer
instance that implements Iterator
.
Each iteration, the Lexer
tries to match one of the given Pattern
and returns a LexerResult<Token>
built from the best match.
Example
Here is an example for a simple math lexer.
lexer!(
// Different operators
OPERATOR(char) {
'+' => |_| Token::OPERATOR('+'),
'-' => |_| Token::OPERATOR('-'),
'*' => |_| Token::OPERATOR('*'),
'/' => |_| Token::OPERATOR('/'),
'=' => |_| Token::OPERATOR('='),
},
// Integer numbers
NUMBER(usize) {
|s: &str| s.chars().all(|c| c.is_digit(10))
=> |v: String| Token::NUMBER(v.parse().unwrap()),
},
// Variable names
IDENTIFIER(String) {
regex!(r"[a-zA-Z_$][a-zA-Z_$0-9]*")
=> |v: String| Token::IDENTIFIER(v),
},
WHITESPACE {
[' ', '\n'] => |_| Token::WHITESPACE,
},
);
That will expand to these enum and structs.
mod gen {
pub enum Token {
OPERATOR(char),
NUMBER(usize),
IDENTIFIER(String),
WHITESPACE,
}
pub struct Lexer {...}
pub struct LexerError {...}
pub type LexerResult<T> = Result<T, LexerError>;
}
And you can use them afterwards.
use gen::*;
let mut lex = Token::tokenize("x_4 = 1 + 3 = 2 * 2");
assert_eq!(lex.nth(2), Some(Ok(Token::OPERATOR('='))));
assert_eq!(lex.nth(5), Some(Ok(Token::NUMBER(3))));
// Our lexer doesn't handle parenthesis...
let mut err = Token::tokenize("x_4 = (1 + 3)");
assert!(err.nth(4).is_some_and(|res| res.is_err()));
Dependencies
~2.2–3MB
~54K SLoC